Cell-free mitochondrial DNA as a potential biomarker for astronauts’ health

Malik Bisserier; Santhanam Shanmughapriya; Amit Kumar Rai; Carolina Gonzalez; Agnieszka Brojakowska; Venkata Naga Srikanth Garikipati; Muniswamy Madesh; Paul J. Mills; Kenneth Walsh; Arsen Arakelyan; Raj Kishore; Lahouaria Hadri; David A. Goukassian

doi:10.1161/JAHA.121.022055

Cell-free mitochondrial DNA as a potential biomarker for astronauts’ health

Malik Bisserier, Santhanam Shanmughapriya, Amit Kumar Rai, Carolina Gonzalez, Agnieszka Brojakowska, Venkata Naga Srikanth Garikipati, Muniswamy Madesh, Paul J. Mills, Kenneth Walsh, Arsen Arakelyan, Raj Kishore, Lahouaria Hadri, David A. Goukassian

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

BACKGROUND: Space travel-associated stressors such as microgravity or radiation exposure have been reported in astronauts after short-and long-duration missions aboard the International Space Station. Despite risk mitigation strategies, adverse health effects remain a concern. Thus, there is a need to develop new diagnostic tools to facilitate early detection of physiological stress. METHODS AND RESULTS: We measured the levels of circulating cell-free mitochondrial DNA in blood plasma of 14 astronauts 10 days before launch, the day of landing, and 3 days after return. Our results revealed a significant increase of cell-free mitochondrial DNA in the plasma on the day of landing and 3 days after return with vast ~2 to 355-fold interastronaut variability. In addition, gene expression analysis of peripheral blood mononuclear cells revealed a significant increase in markers of inflammation, oxidative stress, and DNA damage. CONCLUSIONS: Our study suggests that cell-free mitochondrial DNA abundance might be a biomarker of stress or immune response related to microgravity, radiation, and other environmental factors during space flight.

Original language	English (US)
Article number	e022055
Journal	Journal of the American Heart Association
Volume	10
Issue number	21
DOIs	https://doi.org/10.1161/JAHA.121.022055
State	Published - Nov 2 2021

All Science Journal Classification (ASJC) codes

Cardiology and Cardiovascular Medicine

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10.1161/JAHA.121.022055

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Bisserier, M., Shanmughapriya, S., Rai, A. K., Gonzalez, C., Brojakowska, A., Garikipati, V. N. S., Madesh, M., Mills, P. J., Walsh, K., Arakelyan, A., Kishore, R., Hadri, L., & Goukassian, D. A. (2021). Cell-free mitochondrial DNA as a potential biomarker for astronauts’ health. Journal of the American Heart Association, 10(21), [e022055]. https://doi.org/10.1161/JAHA.121.022055

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title = "Cell-free mitochondrial DNA as a potential biomarker for astronauts{\textquoteright} health",

abstract = "BACKGROUND: Space travel-associated stressors such as microgravity or radiation exposure have been reported in astronauts after short-and long-duration missions aboard the International Space Station. Despite risk mitigation strategies, adverse health effects remain a concern. Thus, there is a need to develop new diagnostic tools to facilitate early detection of physiological stress. METHODS AND RESULTS: We measured the levels of circulating cell-free mitochondrial DNA in blood plasma of 14 astronauts 10 days before launch, the day of landing, and 3 days after return. Our results revealed a significant increase of cell-free mitochondrial DNA in the plasma on the day of landing and 3 days after return with vast ~2 to 355-fold interastronaut variability. In addition, gene expression analysis of peripheral blood mononuclear cells revealed a significant increase in markers of inflammation, oxidative stress, and DNA damage. CONCLUSIONS: Our study suggests that cell-free mitochondrial DNA abundance might be a biomarker of stress or immune response related to microgravity, radiation, and other environmental factors during space flight.",

author = "Malik Bisserier and Santhanam Shanmughapriya and Rai, {Amit Kumar} and Carolina Gonzalez and Agnieszka Brojakowska and Garikipati, {Venkata Naga Srikanth} and Muniswamy Madesh and Mills, {Paul J.} and Kenneth Walsh and Arsen Arakelyan and Raj Kishore and Lahouaria Hadri and Goukassian, {David A.}",

note = "Funding Information: This work was supported by the Translational Research Institute for Space Health award FIP0005 (to Dr Goukassian), National Aeronautics and Space Administration grant 80NSSC21K0549 (to Drs Goukassian and Walsh), American Heart Association Career Development Award18CDA34110277 and start-up funds from the Ohio State University Medical Center (to Dr Garikipati), National Institutes of Health grant R01 HL133554 and American Heart Association18IPA34170321 (to Dr Hadri), National Institutes of Health5T32HL007824-22, and the Cardiovascular Medical Research and Education Fund (to Drs Hadri and Bisserier). Funding Information: This work was supported by the Translational Research Institute for Space Health award FIP0005 (to Dr Goukassian), National Aeronautics and Space Administration grant 80NSSC21K0549 (to Drs Goukassian and Walsh), American Heart Association Career Development Award 18CDA34110277 and start-up funds from the Ohio State University Medical Center (to Dr Garikipati), National Institutes of Health grant R01 HL133554 and American Heart Association 18IPA34170321 (to Dr Hadri), National Institutes of Health 5T32HL007824-22, and the Cardiovascular Medical Research and Education Fund (to Drs Hadri and Bisserier). Publisher Copyright: {\textcopyright} 2021 The Authors.",

year = "2021",

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doi = "10.1161/JAHA.121.022055",

language = "English (US)",

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journal = "Journal of the American Heart Association",

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T1 - Cell-free mitochondrial DNA as a potential biomarker for astronauts’ health

AU - Bisserier, Malik

AU - Shanmughapriya, Santhanam

AU - Rai, Amit Kumar

AU - Gonzalez, Carolina

AU - Brojakowska, Agnieszka

AU - Garikipati, Venkata Naga Srikanth

AU - Madesh, Muniswamy

AU - Mills, Paul J.

AU - Walsh, Kenneth

AU - Arakelyan, Arsen

AU - Kishore, Raj

AU - Hadri, Lahouaria

AU - Goukassian, David A.

N1 - Funding Information: This work was supported by the Translational Research Institute for Space Health award FIP0005 (to Dr Goukassian), National Aeronautics and Space Administration grant 80NSSC21K0549 (to Drs Goukassian and Walsh), American Heart Association Career Development Award18CDA34110277 and start-up funds from the Ohio State University Medical Center (to Dr Garikipati), National Institutes of Health grant R01 HL133554 and American Heart Association18IPA34170321 (to Dr Hadri), National Institutes of Health5T32HL007824-22, and the Cardiovascular Medical Research and Education Fund (to Drs Hadri and Bisserier). Funding Information: This work was supported by the Translational Research Institute for Space Health award FIP0005 (to Dr Goukassian), National Aeronautics and Space Administration grant 80NSSC21K0549 (to Drs Goukassian and Walsh), American Heart Association Career Development Award 18CDA34110277 and start-up funds from the Ohio State University Medical Center (to Dr Garikipati), National Institutes of Health grant R01 HL133554 and American Heart Association 18IPA34170321 (to Dr Hadri), National Institutes of Health 5T32HL007824-22, and the Cardiovascular Medical Research and Education Fund (to Drs Hadri and Bisserier). Publisher Copyright: © 2021 The Authors.

PY - 2021/11/2

Y1 - 2021/11/2

N2 - BACKGROUND: Space travel-associated stressors such as microgravity or radiation exposure have been reported in astronauts after short-and long-duration missions aboard the International Space Station. Despite risk mitigation strategies, adverse health effects remain a concern. Thus, there is a need to develop new diagnostic tools to facilitate early detection of physiological stress. METHODS AND RESULTS: We measured the levels of circulating cell-free mitochondrial DNA in blood plasma of 14 astronauts 10 days before launch, the day of landing, and 3 days after return. Our results revealed a significant increase of cell-free mitochondrial DNA in the plasma on the day of landing and 3 days after return with vast ~2 to 355-fold interastronaut variability. In addition, gene expression analysis of peripheral blood mononuclear cells revealed a significant increase in markers of inflammation, oxidative stress, and DNA damage. CONCLUSIONS: Our study suggests that cell-free mitochondrial DNA abundance might be a biomarker of stress or immune response related to microgravity, radiation, and other environmental factors during space flight.

AB - BACKGROUND: Space travel-associated stressors such as microgravity or radiation exposure have been reported in astronauts after short-and long-duration missions aboard the International Space Station. Despite risk mitigation strategies, adverse health effects remain a concern. Thus, there is a need to develop new diagnostic tools to facilitate early detection of physiological stress. METHODS AND RESULTS: We measured the levels of circulating cell-free mitochondrial DNA in blood plasma of 14 astronauts 10 days before launch, the day of landing, and 3 days after return. Our results revealed a significant increase of cell-free mitochondrial DNA in the plasma on the day of landing and 3 days after return with vast ~2 to 355-fold interastronaut variability. In addition, gene expression analysis of peripheral blood mononuclear cells revealed a significant increase in markers of inflammation, oxidative stress, and DNA damage. CONCLUSIONS: Our study suggests that cell-free mitochondrial DNA abundance might be a biomarker of stress or immune response related to microgravity, radiation, and other environmental factors during space flight.

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U2 - 10.1161/JAHA.121.022055

DO - 10.1161/JAHA.121.022055

M3 - Article

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AN - SCOPUS:85121204192

SN - 2047-9980

VL - 10

JO - Journal of the American Heart Association

JF - Journal of the American Heart Association

IS - 21

M1 - e022055

ER -

Cell-free mitochondrial DNA as a potential biomarker for astronauts’ health

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